Recombinant microorganisms, plants, and plant cells are disclosed that have been engineered to express novel recombinant genes encoding steviol biosynthetic enzymes and UDP-glycosyltransferases (UGTs). Such microorganisms, plants, or plant cells can produce steviol or steviol glycosides, e.g., rubusoside or Rebaudioside A, which can be used as natural sweeteners in food products and dietary supplements.

The present invention relates to a method for preparing 7-dehydrocholesterol and/or the biosynthetic intermediates and/or secondary products thereof by culturing organisms, in particular yeasts. Furthermore, the invention relates to the preparation of the nucleic acid constructs required for preparing the genetically modified organisms and to said genetically modified organisms, in particular yeasts, themselves.

This application describes methods, including non-naturally occurring methods, for biosynthesizing unsaturated pentahydrocarbons, such as isoprene and intermediates thereof, via the mevalonate pathway, as well as non-naturally occurring hosts for producing isoprene.

The object of the present invention is to efficiently produce useful terpenoid compounds, and specifically, to provide a method for preparing squalene, which is an important intermediate of terpenoid. The object can be solved by a hydroxymethylglutaryl CoA reductase (HMGR) comprising:(a) an amino acid other than alanine (A) at the 10th position in an S2 amino acid sequence of HMGR, (b) an amino acid other than proline (P) at the 1st position from the carboxyl terminal in the DKK region of the HMG-CoA binding site of HMGR, (c) an amino acid other than alanine (A) at the 1st position in an L2 amino acid sequence of HMGR, and (d) an amino acid other than glutamic acid (E) at the 6th position in an L2 amino acid sequence of HMGR of the present invention.

The present invention relates to transgenic guayule plants that produce increased amounts of rubber uses thereof.

The present invention relates to methods and compositions containing oligonucleotides suitable for administration to humans and other mammals.

Recombinant microorganisms, plants, and plant cells are disclosed that have been engineered to express novel recombinant genes encoding steviol biosynthetic enzymes and UDP-glycosyltransferases (UGTs). Such microorganisms, plants, or plant cells can produce steviol or steviol glycosides, e.g., rubusoside or Rebaudioside A, which can be used as natural sweeteners in food products and dietary supplements.

The present disclosure belongs to the field of synthetic biology and relates to a valencene synthase mutant and a valencene high-yield strain. An enzyme for synthesizing valencene is derived from Eryngium glaciale, and upon enzyme directed evolution of the enzyme, a valencene synthase mutant with improved enzyme performance is obtained, and the yield of a strain containing the mutant is 3.15 times the yield of a strain containing a wild-type synthase. The valencene synthase mutant of the present disclosure enhances the capability of synthesizing valencene by a strain, and a powerful foundation is laid for the industrial production thereof. A high-yield strain for synthesizing valencene is constructed by using the valencene synthetase mutant, and the yield of a fermentation tank reaches 12.4 g/L, which is the highest level reported to date.

The invention provides a method for producing a terpene or a precursor thereof by microbial fermentation. Typically, the method involves culturing a recombinant bacterium in the presence of a gaseous substrate whereby the bacterium produces a terpene or a precursor thereof, such as mevalonic acid, isopentenyl pyrophosphate, dimethylallyl pyrophosphate, isoprene, geranyl pyrophosphate, farnesyl pyrophosphate, and/or farnesene. The bacterium may comprise one or more exogenous enzymes, such as enzymes in mevalonate, DXS, or terpene biosynthesis pathways.

The invention relates generally to materials and methods for biosynthesising quillaic acid in a host by expressing heterologous nucleotide sequences in the host each of which encodes a polypeptide which in combination have said QA biosynthesis activity. Example polypeptides include (i) a Beta-amyrin synthase; (ii) an enzyme capable of oxidising Beta-amyrin or an oxidised derivative thereof at the C-28 position to a carboxylic acid; (iii) an enzyme capable of oxidising Beta-amyrin or an oxidised derivative thereof at the C-16 position to an alcohol; and (iv) an enzyme capable of oxidising Beta-amyrin or an oxidised derivative thereof at the C-23 position to an aldehyde. Preferred nucleotide sequences are obtained from, or derived from, Q. saponaria.